the issue is that you want something like a distance on a 3 dimensionnal world,
but that rgb representation is not intuitive at all : 'near' colors can be
much different that 'far' color.
Take for instance two shades of grey c1 : (120,120,120) and c2 : (150,150,150) and a now take c3 : (160,140,140) it is closer to c2 than c1, yet it is purple, and for the eye the darker grey is much closer to grey than a purple.
I would suggest you to use hsv : a color is defined by a 'base' color (hue), the saturation, and the intensity. colors having close hue are indeed very close. colors having very different hue do not relate one to another (expl : yellow and green ) but might seem closer with a (very) low saturation and (very) low intensity.
( At night all colors are alike. )
Since the hue is divided into 6 blocks, cyl = Math.floor( hue / 6 ) gives you the first step of your similarity evalution : if same part of the cylinder -> quite close.
If they don't belong to same cylinder, they might still be (quite) close if (h2-h1) is small, compare it to (1/6). If (h2-h1) > 1/6 this might just be too different colors.
Then you can be more precise with the (s,v). Colors they are nearer if both low/very low saturation and/or low intensity.
Play around with a color picker supporting both rgb and hsv until you know what you would like to have as a difference value. But be aware that you cannot have a 'true' similarity measure.